Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

X-linked agammaglobulinemia (XLA) is caused by mutations in the gene encoding the cytoplasmic Bruton's tyrosine kinase (Btk). Btk has been shown to play an essential role in the development of B1 (CD5+) and conventional circulating mature B cells (B2) in mouse and man. It has been shown in earlier studies that Btk is involved in both the BCR- and CD40-mediated signaling pathways. In this study, we analyzed the responsiveness of Epstein-Barr virus (EBV) transformed B cells from nine XLA patients to CD40 stimulation, particularly the CD40 induced activation of c-Jun N-terminal kinase (JNK). In eight XLA patients the JNK activation was unimpaired and in one case INK could not be activated by anti-CD40 stimulation. Btk protein expression was detectable by Western blotting in six cases, in one case Btk expression was drastically reduced, and in three cases no Btk expression could be observed. Btk kinase activity was found in three cases and it was reduced in one and not detectable in five cases. Furthermore, in one female patient with an agammaglobulinemia, Btk expression and function as well as JNK activation by CD40 stimulation was unimpaired. Our findings demonstrate that INK activation via the CD40 signaling pathway is intact in EBV-transformed B cells of most if not all XLA patients, independent of the mutation and its effect on Btk expression and kinase activity. We suggest that Btk is not necessary for the activation of INK upon CD40 stimulation, at least in the B cell subpopulation we had studied. We cannot exclude that these B cells belong to a "leaky" B-cell subpopulation in which the CD40 signaling pathway has become independent of Btk function.
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PMID:Unimpaired activation of c-Jun NH2-terminal kinase (JNK) 1 upon CD40 stimulation in B cells of patients with X-linked agammaglobulinemia. 1214 99

The c-Jun NH(2)-terminal kinase (JNK) is implicated in the apoptotic response of cells exposed to stress, but the JNK signal transduction pathway may not act exclusively in apoptosis. In some studies of tumor cells, JNK has been implicated in signaling cell survival. The possibility that JNK might mediate a survival signal in tumor cells is consistent with the observation that it is activated in response to some oncogenes, such as the leukemogenic oncogene BCR-ABL, which is created by a reciprocal translocation between human chromosomes 9 and 22 (ref. 2). The BCR-ABL protein activates the JNK signaling pathway in hematopoietic cells and increases transcriptional activity mediated by the transcription factor AP1 (ref. 3). Also, inhibition of c-Jun or JNK prevents BCR-ABL-induced cell transformation in vitro. Although this implicates the JNK signaling pathway in transformation by BCR-ABL, the possible role of JNK in this process is unclear. We find that disruption of the JNK ortholog Mapk8 (also known as Jnk1) in mice causes defective transformation of pre-B cells by BCR-ABL in vitro and in vivo. The Jnk1 protein is required for the survival of the transformed cells in the absence of stromal support. Failure to survive is associated with decreased expression of Bcl2, and the effect of Jnk1 deficiency can be rescued by transgenic expression of Bcl2. Our results show that Jnk1 signals cell survival in transformed B lymphoblasts and suggest that it may contribute to the pathogenesis of some proliferative diseases.
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PMID:Survival signaling mediated by c-Jun NH(2)-terminal kinase in transformed B lymphoblasts. 1216 51

Acute myeloid leukemia (AML) remains the most common form of leukemia and the most common cause of leukemia death. Although conventional chemotherapy can cure between 25 and 45% of AML patients, most patients will either die of relapse or die from the complications associated with treatment. Thus, more specific and less toxic treatments for AML patients are needed. Recently, a small molecular inhibitor (STI571 or Gleevec) that targets the BCR-ABL gene was found to have a dramatic clinical effect in patients with chronic myelogenous leukemia (CML). These results have encouraged investigators to search for additional small molecular inhibitors and other targeted therapies that may be applicable to other forms of leukemia. In this review, we examine some of the signaling pathways that are aberrantly regulated in AML, focusing on the tyrosine kinase/RAS/MAP kinase and JAK/STAT pathways. After reviewing these two pathways, we explore some of the targeted therapies directed at these pathways that are under development for AML, many of which are already in clinical trials.
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PMID:Molecular targets in acute myelogenous leukemia. 1249 Feb 7

Clinical studies have shown that the tyrosine kinase inhibitor STI571 effectively controls BCR-ABL-positive chronic myelogenous leukemia (CML). However, disease progression while on STI571 therapy has been reported, suggesting de novo or intrinsic resistance to BCR-ABL-targeted therapy. To investigate possible mediators of acquired STI571 resistance, K562 cells resistant to 5 microM STI571 (K562-R) were cloned and compared to the parental cell population. K562-R cells had reduced BCR-ABL expression and limited activation of BCR-ABL signaling cascades (Stat 5, CrkL, MAPK). STI571 failed to activate caspase cascades or to suppress expression of survival genes (bcl-xL) in resistant cells. Gene sequencing and tyrosine kinase activity measurements demonstrated that K562-R cells retained wild-type and active BCR-ABL tyrosine kinase that was inhibitable by in vitro incubation with STI571, suggesting that BCR-ABL was not coupled to proliferation or survival of K562-R cells. The src-related kinase LYN was highly overexpressed and activated in K562-R cells, and its inhibition reduced proliferation and survival of K562-R cells while having limited effects of K562 cells. Specimens taken from patients with advanced CML that progressed on STI571 therapy also were analyzed for LYN kinase expression, and they were found to be elevated to a level similar to that of K562-R cells. Comparison of samples from patients taken prior to and following STI571 failure suggested that expression and/or activation of LYN/HCK occurs during disease progression. Together, these results suggest that acquired STI571 resistance may be associated with BCR-ABL independence and mediated in part through overexpression of other tyrosine kinases.
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PMID:BCR-ABL independence and LYN kinase overexpression in chronic myelogenous leukemia cells selected for resistance to STI571. 1250 83

Acute BCR-ABL expression during in vitro hematopoietic development of embryonic stem (ES) cells causes expansion of multipotent and myeloid progenitors with a concomitant reduction in differentiation toward erythroblasts. Progenitor cell expansion is due to a rapid, cell autonomous, suppression of programmed cell death with an increase in expression of the antiapoptotic molecule BCL-X(L). Other antiapoptotic effectors, including AKT, STAT5, and BCL-2 are not up-regulated by BCR-ABL in this system. In addition, the proapoptotic p38 mitogen-activated protein kinase (MAPK) pathway is suppressed by BCR-ABL expression in ES-derived hematopoietic progenitors. Inhibition of p38 MAPK by the small molecule inhibitor SB203580 expanded ES-derived hematopoietic progenitors by an antiapoptotic mechanism and is sufficient to expand ES-derived hematopoietic progenitors to levels approaching 80% of that seen following BCR-ABL expression. In the cellular context of ES-derived hematopoietic progenitors, BCR-ABL expression expands cells by suppressing programmed cell death with a set of antiapoptotic pathways distinct from those previously reported in continuous cell line studies.
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PMID:Cell context-specific effects of the BCR-ABL oncogene monitored in hematopoietic progenitors. 1252 91

Current models of lymphocyte activation suggest that formation of a signaling complex, or "signalosome", composed of Syk, Bruton's tyrosine kinase (Btk), phospholipase gamma2 and the adaptor protein B cell linker protein (BLNK) is critical for transmission of signals from the BCR. However, impaired B cell development in mice lacking each individual signalosome component has made it difficult to study the functional consequences of the formation of this complex in mature B cells. Sensitized genetic systems, commonly used in Drosophila, define signaling pathways by combining partial loss of function mutations in the components of interest. This allows genetic interactions to be observed in the absence of pleiotropic or lethal effects of complete deficiency of either gene. We used this approach to demonstrate that Btk and BLNK are limiting components of a common signaling pathway that mediates the mitogenic response of mature B cells to antigen. B cells from transgenic mice expressing a limiting dosage of Btk (Btk(lo)) have normal numbers of mature B cells that have reduced, but measurable, responses to BCR cross-linking. Haploinsufficiency of BLNK did not affect the development of Btk(lo) B cells. However, it exacerbated their defects in BCR-induced Ca(2+) flux, IkappaB degradation, and up-regulation of cyclin D2, bcl-x(L) and A1 leading to dramatic impairment of B cell mitogenic responses. In contrast, no effect of reduced Btk and BLNK dosage was observed on extracellular signal-regulated kinase activation. These results suggest that the signals regulating the maintenance and activation of mature B cells are differentially sensitive to the strength of the signal emanating from the signalosome.
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PMID:Haploinsufficiency of B cell linker protein enhances B cell signaling defects in mice expressing a limiting dosage of Bruton's tyrosine kinase. 1261 82

Mature B cells are grouped into two major subsets, B-1 and B-2, believed to derive from separate lineages. We have recently shown that B-1 cells, which are characterized by CD5 surface expression, specifically exhibit significant levels of the tyrosine kinase Lck in man. Here we show that also in mice Lck expression is restricted to B-1 cells and address the potential role of Lck in B-1 cell development and activation. Using as a model an Lck-/- mouse, we show that, while dispensable for B-1 cell development, Lck is required for full and sustained activation of the tyrosine phosphorylation and MAP kinase cascades triggered by the BCR in CD5+, B-1 cells. The data suggest a potential role for Lck in the achievement of the higher activation threshold required for productive BCR signaling in B-1 as compared to B-2 cells.
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PMID:Normal B-1 cell development but defective BCR signaling in Lck-/- mice. 1264 42

Depending on the experimental model, unmethylated CpG motifs in bacterial DNA or synthetic oligodeoxynucleotides (CpG DNA) either augment or antagonize BCR-induced signals in B cells. CpG DNA synergizes with BCR-induced proliferation and Ig production of mature B cells, but blocks BCR-mediated apoptosis of immature B cells. Here, we demonstrate using a murine B lymphoma cell line WEHI-231, which is a model for immature B lymphocytes, that CpG DNA augments BCR-mediated signals for the activation of mitogen-activated protein kinase (MAPK) kinase (MKK)3, MKK4 and MKK6, and their subsequent downstream effectors c-Jun N-terminal kinase (JNK) and p38, but does not enhance MEK1/2 or extracellular signal-regulated kinase (ERK) activation. CpG DNA- and BCR-mediated signals also synergize for the activation of transcription factors AP-1, NFAT and NF-kappaB, but not for cAMP-responsive elements binding factor. Synergistic activations of JNK and p38 contribute to the synergistic production of cytokines induced by CpG DNA- and BCR-mediated signals, but have little or no effect on the ability of CpG DNA to protect WEHI-231 cells from anti-IgM-induced growth arrest. In contrast, all three MAPK, JNK, ERK and p38, contribute to the synergistic induction of splenic mature B cell proliferation by CpG DNA and anti-IgM. These results indicate that CpG DNA- and BCR-mediated signals converge at the level of MKK, NF-kappaB and NFAT activation, and that MAPK have differential regulatory roles for CpG DNA-mediated cytokine production versus cell proliferation in splenic mature B cells and WEHI-231 cells.
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PMID:Convergence of CpG DNA- and BCR-mediated signals at the c-Jun N-terminal kinase and NF-kappaB activation pathways: regulation by mitogen-activated protein kinases. 1269 59

We have previously shown that Fas-induced apoptosis is markedly enhanced by IL-7 in human pre-B but not pro-B cell lines. In addition, pre-B cell receptor (pre-BCR) ligation significantly potentiates the IL-7 effects on Fas-triggered pre-B cell death. We show herein that transforming growth factor (TGF)-beta 1 sharply reduces Fas-induced death rate of pre-B but not pro-B cells. TGF-beta 1 causes inhibition of Fas-mediated disruption of mitochondrial transmembrane potential and cleavage of caspase 8, Bid and caspase 3. Bcl2 expression is markedly increased in TGF-beta 1-treated pre-B cells, whereas cellular FLICE-like inhibitory protein long (c-FLIPL), Bcl-XL, Bax, and Bad expression remains unchanged. TGF-beta 1 causes a selective growth arrest of pre-B cells in G0/G1 phase of the cell cycle and induces a partial down-modulation of both Fas and pre-BCR expression. All TGF-beta 1-mediated effects, but Bcl2 up-regulation, can be reproduced by the LY294002 phosphatidylinositol 3-kinase (PI3K)/Akt inhibitor but not by inhibitors of the MAPK/ERK (MEK) and Janus kinase (Jak)/STAT pathways, which promote cell death. Akt phosphorylation is strongly inhibited by TGF-beta1 in pre-B but not pro-B cells and is not modified by Fas engagement. Altogether, our findings suggest that TGF-beta1 prevents Fas-induced apoptosis of pre-B lines by inhibiting PI3K pathway and by enhancing expression of Bcl2. They also suggest that the PI3K/Akt pathway is involved in the control of Fas and pre-BCR expression, a checkpoint in B cell development.
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PMID:TGF-beta1 modulates Fas (APO-1/CD95)-mediated apoptosis of human pre-B cell lines. 1273 Oct 64

Although differentiation of leukemic blasts to dendritic cells (DC) has promise in vaccine strategies, the mechanisms underlying this differentiation and the differences between leukemia and normal progenitor-derived DC are largely undescribed. In the case of chronic myeloid leukemia (CML), understanding the relationship between the induction of DC differentiation and the expression of the BCR-ABL oncogene has direct relevance to CML biology as well as the development of new therapeutic approaches. We now report that direct activation of protein kinase C (PKC) by the phorbol ester PMA in the BCR-ABL(+) CML cell line K562 and primary CML blasts induced nonterminal differentiation into cells with typical DC morphology (cytoplasmic dendrites), characteristic surface markers (MHC class I, MHC class II, CD86, CD40), chemokine and transcription factor expression, and ability to stimulate T cell proliferation (equivalent to normal monocyte-derived DC). PKC-induced differentiation was associated with down-regulation of BCR-ABL mRNA expression, protein levels, and kinase activity. This down-regulation appeared to be signaled through the mitogen-activated protein kinase pathway. Therefore, PKC-driven differentiation of CML blasts into DC-like cells suggests a potentially novel strategy to down-regulate BCR-ABL activity, yet raises the possibility that CML-derived DC vaccines will be less effective in presenting leukemia-specific Ags.
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PMID:Induced dendritic cell differentiation of chronic myeloid leukemia blasts is associated with down-regulation of BCR-ABL. 1290 78


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